the biomechanical wizard by gideon ariel, ph.d. guangdong provincial institute of sport science...
TRANSCRIPT
The Biomechanical WizardBy Gideon Ariel, Ph.D.
Guangdong Provincial Institute of Sport Science
February 22nd 2005
Golf Strobing
Kinematics and Strobing
Brief History
Mybridge, The Inventor of Recorded Motion 1894 Mexico City Olympics 1968 Montreal Olympics 1976 Los Angeles Olympics 1984 The USA Women Volleyball 1976-1984
More video clips at:
http://www.sportsci.com/media
Rear Projection Digitizing
Working with Olympic Athletes
USA Volleyball Olympic Team
With Professor Zhang at our laboratory in Coto De Caza 2001
The Biomechanics Conference in Guangzhou - 2003
Athens Olympics 2004
Optimizing Athletic Performance Through High-Technology
Utilizing the APAS Wizard System
By Gideon Ariel, Ph.D.
Athens Olympics, 2004
Data Collection at the Athens Olympics-2004
MOVEMENT ANALYSIS CAN BE APPLIED TO:
Athletics
Industry
Medicine
Space
ALL APPLICATIONS UTILIZED SIMILARQUANTIFICATION TECHNIQUES
Captures Movement in Three-Dimensional Space
Basic Components of Motion Analysis System
notebook computer
portable VCR portable printer
external monitorvideo cameras
force plate EMG
optional A/D devices
Capture videos using several cameras simultaneously and save the clips directly as AVI files to your hard disk. This allows you to connect multiple digital video
cameras to your computer and to start capturing with one mouse click.
HIGH TECHNOLOGY
3D Kinematic Computer Analysis of Motion3D Kinematic Computer Analysis of Motion Kinetic [force] Ground Reaction Forces / BalanceKinetic [force] Ground Reaction Forces / Balance Computerized Strength Analysis EquipmentComputerized Strength Analysis Equipment Dynamic EMG [electromyography]Dynamic EMG [electromyography]
The Spectrum of Athletic Performances• Explosive Events
– Throwing– Sprinting– Jumping
• Endurance Events– Long Distance Run– Swimming– Cycling
• Accuracy Events– Golf– Archery
• Team Sports– Soccer– Basketball– Hockey
• Esthetic Events– Figure Skating– Gymnastics– Diving
• Multi Events– Decathlon– Pentathlon
Analysis of Performance Require:
Video RecordingDigitizing the Data
ManualAutomatic
Transformation of the Data2D - Two Dimensional3D - Three
Dimensional
Hardware
Main Computer System Workstations High Speed Camera Capture Card Network
Intranet Internet
The APAS System
DLT
Filter
BIOMECHANICAL SIMILARITIES AND DIFFERENCES OF A.AGASSI'S FIRST
AND SECOND SERVES
A. Vorobiev, G. Ariel, D. Dent
velocities of the Center of Gravityvelocities of the Center of Gravity
first serve
second serve
A. AGASSI
velocities of knee extensionvelocities of knee extension
first serve
second serve
A. AGASSI
velocities of hip rotationvelocities of hip rotation
first serve
second serve
A. AGASSI
comparison of A. Agassi's first and second serves
comparison of A. Agassi's first and second servesfirst and second serves
first and second serves
Kinematic Parameters First Serve
Second Serve
Ball Speed at the Moment of Impact [m/s]45.8+-2.237.9+-2.4
Directional Angle [degrees] 17+-4 10+-5
Ball Position at the impact relative to the CG [m]
Forward .13+-.02 0+-.03
Left Lateral .12+-.04 .36+-.04CG Maximal Speed [m/s] 1.89+-.1 1.71+-.09
Software Integration
Display and Analysis
Displayw.exe
Panning CalibrationPanning Calibration
Left calibrationobject
Right calibrationobject
Photogrammetric Physical Parameters
2r
1r
3r
1c'
3c
2c
1c
2c'
1p
2p
T
QP
RS
p
rqr
c
pLaboratory Reference
Frame
Projection Reference Frame
Object Point of interest
Projection of Object
Point
Image Projection
Plane
Camera Reference Frame
The world record in triple jump of 18.29m by J. Edwards, UK
J Edwards, World Record in the Triple Jump – 18.29M
TRIPLE JUMP – World Record
During the World Championships in Athletics in August 1995 in Gothenburg Sweden, a research group had access to videotape the final of the mens triple jump. In this competition Jonathan Edwards broke the existing world record twice. The research group consisted of Per Aagaard, Morten Havkrog, Erik B. Simonsen, Gideon Ariel and Leif Dahlberg. The hop, step and jump were recorded by separate cameras with a shutter of 1/1000 sec. Later the 9 best athletes of the final were analysed by the APAS system.
LONG JUMP TECHNIQUE: POWER OR SPEED?LONG JUMP TECHNIQUE: POWER OR SPEED?
A. VOROBIEV, G.B.ARIEL, I, TER-OVANESSIANA. VOROBIEV, G.B.ARIEL, I, TER-OVANESSIAN
Comparative Kinematic CharacteristicsComparative Kinematic CharacteristicsParameters of the Long Jump M.Powell C.Lewis
General InformationOfficial Distance [m] 8.95 8.91Effective Distance [m] 8.98 8.91Favorable Wind Velocity [m/s] 0.3 2.9
The ApproachAverage Speed: 11-6m to the Board [m/s] 10.79 11.23Average Speed: 6-1m to the Board [m/s] 10.94 11.26The Length of the Third-Last Stride [m] 2.4 2.23The Length of the Second-Last Stride [m] 2.47 2.7The Length of the Last Stride [m] 2.28 1.88
The Take-OffCM Horizontal Velocity [m/s] 9.27 9.11CM Vertical Velocity [m/s] 4.21 3.37Angle of Projection [deg] 24.1 20.3Angle of body Lean at Touch-Down [deg] 71.8 77Angle of body Lean at Take-Off [deg] 73.9 67.5
CM VelocitiesCM Velocitieslast strides of the approach
Change of the Height of CMChange of the Height of CMlast strides of the approach
Angular DisplacementAngular Displacement hip joint
Angular VelocityAngular Velocity hip joint
Biomechanical Analysis of Discus Throwing at
Olympic Games
Methods
The track & field project involved collecting video records of the
preliminaries and final performances of various events for the immediate development of digital movies to be
uploaded on the internet.
There Were 18 Throwers During the Qualifying Round and the Best 8 Athletes Competed for the Gold
Medal in the Final Round.
Video Cameras Were Placed in Several Locations to Maximize
the Data Obtained for the Event
Because the Discus Throw Involves Both Linear and Rotary Motion, the Optimal
Data Collection Situation Utilizes at Least Three Cameras Placed Appropriately So
That None of the Athlete's Motion Is Obscured
Dimensions of Known Factors and Various Other Measured Objects in the Field of View Were Used for the
Calibration Points
3-D DLT Composite Control Cube
Results
Washington Throwing Kinematics
Attempt Distancem.
Velocitycmsec-1
Projection Anglerad (deg)
Release HTcm
Move Timesec
BestThrow
65.4 2541Vr
2134 Vx
.52 (29.9) 120 1.2
WorstThrow 61.3
2441 Vr
1222 Vx 1.05 (59.9) 140 1.4
%Change -6.3% -4.0% Vr
-43.0% Vx
+100% +17% +12%
DISCUS THROW DISTANCE m.
COMPETITOR
TH
RO
W D
IST
m
.
69.466.6 65.8 65.4
0
10
20
30
40
50
60
70
80
Riedel
Dubrov
Kap
Wash
DISCUS PROJECTION VELOCITY cm/sec
COMPETITOR
PR
OJ
VE
L c
m/s
ec
3,080.1
2,7182,599
2,498
0
500
1,000
1,500
2,000
2,500
3,000
3,500
Riedel
Dubrov
Kap
Wash
DISCUS RELEASE ANGLE deg
COMPETITOR
PR
OJ
AN
GL
E d
eg 21.9
29.1
37.3
29.9
0
10
20
30
40
Riedel
Dubrov
Kap
Wash
DISCUS RELEASE HEIGHT m.
COMPETITOR
RE
LE
AS
E H
T m
.
1.5
1.8
1.6
1.2
0
0.5
1
1.5
2
Riedel
Dubrov
Kap
Wash
DISCUS MOVEMENT TIME sec.
COMPETITOR
MO
VE
TIM
E s
ec.
3
2.3
1.9
1.6
0
0.5
1
1.5
2
2.5
3
3.5
Riedel
Dubrov
Kap
Wash
Throwing Kinematics for Top Four Discus
Performers at 1996 Atlanta Olympics
Place Performer Dist M
Vel Rel Cm/sec
Proj ang deg
Rel Ht Mov T
1 Riedel (Ger) 69.4 3080.1 21.9 1.5 3.0
2 Dubrovschchik (Blr)
66.6 2718.5 29.1 1.8 2.3
3 Kaptyukh (Blr) 65.8 2599.0 37.3 1.6 1.9
4 Washington (USA)
65.4 2498.0 29.9 1.2 1.6